NO790549L - HIGH VOLTAGE MULTIPLE SWITCH UNIT. - Google Patents

Description

The present invention relates to a high-voltage multi-switch unit.

In accordance with the present invention, a new standing structure has been provided which carries a device for a high-voltage multi-switch unit especially intended for use as a shock unit, e.g. connected in electrical series for breaking high voltage values. The present invention is characterized by the use of only a simple standing first,

hollow supporting column structure, a first insulating operating rod extending upwardly inside said single upright hollow supporting column structure is articulated by a mechanism cap projecting above said simple first column structure to a pair of adjacent, angle-forming upright, or inclined in additionjV -shaped, second, supporting column structure, each of which preferably additionally carries a V-shaped switch unit comprising a pair of double shock type switch units all connected electrically in series.

Where each arm or branch of the angular projecting or inclined second hollow column structure carries a pair of switch units, the result is evidently seen from an overall

position that a high-voltage switch unit comprises four series switches for interrupting the high-voltage line. ■

Yet another feature of the present invention is its clear adaptability to a three-switch device (rather than a four-switch device), in which only one of the angled projecting or inclined second hollow insulating column constructions carries a V-shaped double impact unit as a switch device, while the adjacent angular projecting, other hollow, inclined, load-bearing column construction only supports one such

impact type switch unit.

However, different types of circuit breaker designs or arc extinguishing units may be utilized such as oil circuit breaker units, vacuum type units, etc., where feasibility or other requirements dictate a different type of circuit breaker unit rather than an impact type, gas filled circuit breaker unit. In other words, the present invention is mainly aimed at a mounting device for a multi-switch unit and not only for use for a special type of arc extinguishing unit,

The invention will now be described in more detail with help

of an exemplary embodiment with reference to the drawings, .

Fig. 1 shows an end section of a single-phase high-voltage multi-switch unit where the pole unit comprises four switches in electrical series and indicates the overall construction-mounting device. Fig. 2 shows an elevation of a single-phase switch unit in fig. 1 through the line II-II in fig. 1 set in the direction of the arrows. Fig. 3 shows a circuit diagram of the four-switch unit in fig. 1 with the separate contacts closed. Fig. ^ shows a longitudinal, essentially vertical section of one of the hollow column constructions in fig. 1 in the main case along the line IV-IV on -fig. 1. Figs. 5 and 6 show in detail one of the many switch units' of the impact type, where fig. 5 shows such a shock unit in a closed state and fig. 6 shows such a shock type arc extinguishing unit during an intermediate part of the opening operation with the contacts separated and the direction of the gas flow shown. Fig. 7 shows the metallic sheath and joint connection device in the first mechanism sheath projecting over the lower single, first, standing hollow insulating column construction of Fig. 1 and shows its adaptability to additionally serve multi-switches of the impact type unit by the use of other insulating bars extending through angled or inclined second hollow insulating column constructions projecting above such a first lower mounted mechanism casing, and where the parts of the connecting links is shown in the closed position. Fig. 8 shows a modification of the present invention and shows its adaptability to a three-switch, high-voltage switch arrangement in which obviously one of the shock-type switch assemblies is removed and the transmission line connection extends straight out, from the other upper-mounted metallic mechanism casing. Fig. 9 shows the circuit diagram of the connections for the three switch devices in fig. 8. Fig. 10 shows the diagram of an alternative wooden switch device.

Referring to the drawings and more particularly to fig. 1 and 2, it should be noted that there is shown a single-phase, high-voltage switch unit i, which in this case is a multi-switch of the impact type with compressed gas and which has four switches in electrical series as shown in fig. 3 and where each of the shock units 3 is of the same type as shown in fig. 4 — 6..

From fig. 1 it further appears that a lower-mounted simple stand-alone first hollow standing insulating column structure 5 is usually provided - Above the upper end of the first hollow single standing insulating column structure 5, a first mechanism cover 8 projects more clearly in fig. 7 and which adapts the first lower operating rod 10 which extends upwards in the first lower column structure 5 to control a further upper positioned second operating rod 13 which extends angularly upwards through the further inclined hollow second column structures 16 and 17.

Arranged at the outer free ends of the other angularly projecting inclined hollow column structures 16, 17 are a pair of V-shaped multi-switch units A and B containing several pairs of arms 19-22, each of the arms containing an impact type switch unit 3 as shown on fig. 5 and 6.

As a possible solution, a pair of conventional additional second mechanism covers 8A, also of the type shown in fig. 7, located at the upper ends of the second column structures 16, 17 and thereby causing the entire movement of the interacting switch units 3 of the impact type arranged inside the upper third hollow V-shaped column structures 25~28.

Usually the electrical circuit L-^-L^ passes through

the four-switch unit 1 in the manner shown in fig. 3.

Fig. 4 shows a longitudinal vertical section taken along the line IV-IV in fig. 1 to show the internal construction of the impact type left 'switch assembly' 25. As is well known to those skilled in the art, each of the casing structures 25-28 is gas-sealed and comprises a stationary piston structure 30, over which a movable operable cylinder 31 slides vertically and compresses gas 32 therebetween. The movable hollow operable cylinder 31 additionally carries the movable contact structure 34 which separates from the stationary contact structure 35> which draws an arc 37 axially through an insulating movable nozzle 40, which is also carried by the movable operable cylinder 31 in a manner that is clearer shown in fig. 6.

Gas stream 3compressed inside the compression chamber■ 41, passes through an open wheel star device 4 3 and through it'

interior of the hollow insulating opening 45 to effect the extinguishing of the arc 37 created therein.

With four-switch device 1 as shown in fig. 1 and 2 and which is shown on the electrical diagram of fig. 3, it will be noticeable that there are four such switch units 3 of the impact type (as shown in Figs. 5 and 6) in electrical series connected with the two V-shaped switch units shown with the letters A and B in Fig. 1 and 3.

With reference to fig. 7, it should be noted in more detail that an angle arm lever 49 has been provided which is fixedly mounted on top of a horizontal projecting operating rod 50 and which has a pair of rotatable arms 51,53 securely attached thereto. At the outer end of each of the arms 51 and 53, floating links 55 and 56 which are rotatably connected to further rotatable road heaters 58 and 59 are connected at their lower ends to each of the other angularly projecting or inclined hollow insulating column constructions j ions 16 and 17. The other two insulating operating rods 13 are additionally articulated with a further common mechanism cover 8A which can be of the same mechanical device as shown in fig. 7 and thereby gives rise to a further pair of third operable rods 62 and 63, each of which carries out the control of a single operable cylinder 31 (figs. 5 and 6) which is contained within the upper angle-forming projecting or inclined insulating the hollow casing structures 25-28, The right part of the unit 1 in fig. 1, which is to the right of the center line X-X, are of the same construction, all resulting in a four-switch arrangement comprising four series shock units 3 and all simultaneously controlled through, the opening operation of the single insulating lower mounted main first operating rod 10 which extends to a suitable operating mechanism 70 (fig. 2) at ground potential and which is more clearly shown with closer reference to fig. 2.

From what was previously described, it will be obvious that an improved single-phase high-voltage, compressed gas switch unit 1 has been provided, as shown respectively with fig. 1 and 2, which has a simple upright hollow lower-mounted first insulating column structure 5, which carries at its upper end a regular

■mechanism cover 8. Angle-forming protruding or inclined second hollow insulating column constructions 16,17 project above such a common first mechanism cover 8, and at its outer free ends at each of these constructions is a further common mechanism cover 8A as shown in fig. 1, which gives rise to a further pair of third insulating operating rods 62,63 which individually constitute a particularly simple switch unit 3 of the impact type as shown in fig. 5 and 6. All the shock units 3 are electrically connected in electrical series as shown in fig. 3 and results in a circuit breaker device. It should be noted that the rods 65 and 66 in fig. 7 is on the outside of the sealed casings 16 and 17 and produces the operation of the inner mounted rotatable road heaters 67 and 68 which carry out the operation of the inner second insulating bars 13. On the other side, the other mechanism covers 8A which are positioned at the the outer or upper end of the other hollow angle-forming projecting column constructions 16, 17 be completely gas-sealed and the road heaters 49, 58, 59 and the operating rods can be arranged inside a sealed mechanism hyster 8A where desired. Fig. 8 and 9 show a further modified adaptation 80 of the device, to achieve e.g. for lower voltage values only three switches, one of the switch units 3 can be removed as shown in fig. 8 and on the electrical diagram of fig. 9-Fig'. 10 shows an alternative three-switch assembly using a rigid switch 91 connected to the two right-hand units 3.

Although shock-type, gas-filled, switch units 3 have been shown, it must be clear that the present invention is particularly directed to a construction-wise mounting of support devices and not to the use of one or another special type of switch units. In other words, oil type arc extinguishing units, or vacuum interrupter units can be used as a substitute for gas-filled impact type units -3 as shown in fig. 5 and 6. Depending on the voltage and current requirement, the environment and other considerations, the arc extinguishing units 3 of different types may be easier to use. As mentioned, the present invention is aimed essentially at the constructive mounting device and the operating rods for carrying out the control of several units in electrical series which, however, can be of different types as previously mentioned.

Claims (8)

1. Eri high-voltage multi-switch unit, characterized in that it comprises a simple standing hollow insulating first column, a mechanism casing which projects over said column and is structurally connected to a pair of angle-forming, projecting second hollow column constructions, a further mechanism casing which projects over each of the other hollow column constructions and at least a pair of V-shaped double switch units which projecting above said hollow column structures with an adjacent second hollow column structure carrying at least one additional arc extinguishing unit for simultaneous multi-switch operation. 2. Unit according to claim 1, characterized in that each of the other hollow column constructions carries an essentially V-shaped multi-switch unit which results in a four-switch unit construction. 3. Unit according to claims 1 or 2, 'characterized' in that it comprises a simple, upright, hollow column structure having a mechanism casing arranged at its upper end, said mechanism casing carrying the pair of angle-forming out projecting second hollow insulating column structures, and that each of said second hollow insulating column structures carries a mechanism casing, and that at least one of said second mechanism casing carries a V-shaped multi-switch arc extinguishing unit, with the further second mechanism casing carrying at least one arc extinguishing unit , whereby a high-voltage multiple switch is produced. 4. Unit according to claims 1-3, characterized in that the arc extinguishing units are a shock-type switch unit. 5.. Unit according to claims 1-4, characterized in that the first mechanism cover comprises a three-angle arm operating mechanism in which a single standing insulating operating rod from the earth potential is mechanically articulated to two projecting angle-forming other insulating operating rods. 6. Unit according to claims 1-5, characterized in that the mechanism casing is arranged inside the upper end of the first insulating column construction which has three angle arms connected thereby which transmit movements of a single first insulating operating rod to two angularly projecting second insulating operating rods. 7. Unit according to one of claims 1-6, characterized in that each of the other insulating operating rods mechanically operates a joint connection structure at the outer free end of the second hollow insulating structure. 8. High-voltage multi-switch unit constructed and intended for use as essentially described here and shown in connection with the drawings.